First you need the size of the pipe and the volume of water supply. Pressure will vary during usage. Standard well system operates between 20-40 psi and city systems operate from 50-70 psi.
I need to calculate 55 psi on a 2 inch line to 1/2 line to gpm
I need to know 45 psi is how much gpm
how to convert 45 psi to gpm in a 10" pipe
convert 50 psi to gpm in a 10" pipe
About 1.25 gallons per minute.
50GPM
When operating, a nuclear power plant needs about 750,000 gallons of water per minute! When being shut down (as in the case of an emergency) the cooling operation requires about 25,000 gallons per minute.
97.968 kPag
It depends on the depth of the water. The hydrostatic pressure increases with depth.
No it increases them.
The amount of water flowing by the gallon per minute affects water pressure in a way that means the higher the volume of water per minute, the higher the pressure the water will be. There is also the factor of air in the pipes that will slow down water pressure significantly.
The answer is unknown. In order to answer this question you need to know the pressure of the water.
An average kitchen faucet uses approximately three to five gallons of water per minute. The average person uses around 50-gallons of water every day.Ê
50 gallons of water per minute equals 3,000 gallons per hour.
It depends on how long a person spends washing their car. When using a self-service car wash with high pressure hoses, the amount of water used is about 3.5 gallons per minute. Washing a car without high pressure hoses uses about 8 gallons per minute.
you need to know the density of the material that is flowing. 1 liter per minute of water times 999 kg/cu. meter equals .017 kg/s water.
50/(24*60)=0.0347GPM
water is roughly 8lbs per gallons..........convert your ounces into gallons and finish the math that way
About 1.25 gallons per minute.
About 500,000 gallons of water
You can't convert those units. Milimeters of water (mmH2O) is a unit of pressure equal to about 13.6 mmHg. Cubic feet per minute is a measure of fluid flow.